Novel berberine-loaded hyalurosomes as a promising nanodermatological treatment for vitiligo: Biochemical, biological and gene expression studies

Abstract

Vitiligo is a depigmentation disorder that affects 0.5–2% of the world population. It has a severe impact on a patient's quality of life and even causes suicidal attempts. Up to date, no curative therapy is available which have created a substantial demand for novel vitiligo treatments. Berberine (BRB) is an isoquinoline alkaloid with promising pharmacological effects. However, it suffers from poor membrane permeability hindering its topical application. The current work is the first to design and assess topical BRB-loaded hyalurosomes for targeted vitiligo treatment. BRB-hyalurosomes are hyaluronan-immobilized phospholipid nanovesicles that showed promising invitro physicochemical properties. Novel ex vivo studies were performed using full-thickness human skin to mimic its dermal application. Furthermore, in-vivo studies were conducted using a vitiligo-induced mouse model followed by biochemical, histological and immunohistochemical investigations. In addition, gene expression of skin inflammatory markers was assessed using quantitative reverse-transcription PCR. Biological studies showed significant improvement of the biochemical markers in BRB-hyalurosomes group compared to the vitiligo-model group and BRB conventional gel. It is worthy to mention that placebo hyalurosomes demonstrated significant enhancement in the biological activity confirming its intrinsic activity. Conclusively, BRB-hyalurosomes is considered a novel nanodermatological tool that paving the way for its clinical application for vitiligo treatment.